姓名 |
程年才 |
学科 |
材料学, 材料物理化学,材料加工 |
联系方式 |
E-mail: niancaicheng@fzu.edu.cn 个人主页:建设中 |
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个人简历 |
2016.11-至今, 福州大学,材料科学与工程学院,闽江学者特聘教授 2012.06-2016.09 加拿大西安大略大学 博士后 合作导师:孙学良院士 2011.03-2012.02 美国伊利诺伊大学厄巴纳-香槟分校 博士后 合作导师:Andrzej Wieckowski教授 2008.10-2009.09 英国巴斯大学 博士联合培养 导师: Frank Marken教授 2007.09-2010.06 武汉理工大学材料复合新技术国家重点实验室 博士, 导师:潘牧教授 2004.09-2007.06 武汉理工大学材料复合新技术国家重点实验室 硕士 导师:木士春教授 1999.09-2003.06 武汉理工大学材料学院 本科
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社会兼职 |
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荣誉称号 |
闽江学者特聘教授 |
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教学情况 |
《硅酸盐物理化学》《博士生英语口语》 |
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研究领域 |
1. 质子交换膜燃料电池(Proton exchange membrane fuel cell, PEMFC)关键材料 1)高效低Pt、超低Pt催化剂; 2)非贵金属催化剂; 3)产业化 :Pt/C和Pt-M/C催化剂。 2. 电催化制氢(Hydrogen evolution reaction, HER) 1)低Pt催化剂; 2)非Pt催化剂; 3. 锂-硫电池关键材料 1)正极材料; 2)负极材料; 4. 原子层沉积技术(atomic layer deposition, ALD)在新能源材料中的应用。 |
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论著成果 |
论著成果: 1. Z. Wang, S. Chen, W. Wu, R. Chen, Y. Zhu, H. Jiang, L. Yu, N. Cheng*, Tailored Lattice Compressive Strain of Pt-Skins by the L12-Pt3M Intermetallic Core for Highly Efficient Oxygen Reduction, Advanced Materials, 35 (2023) 2301310. 2. R. Chen, Z. Wang, S. Chen, W. Wu, Y. Zhu, J. Zhong*, N. Cheng*, Activating Lattice Oxygen in Spinel Oxides via Engineering Octahedral Sites for Oxygen Evolution, ACS Energy Letters, 8 (2023) 3504-3511. 3. Y. Tan, Z. Zhang, W. Wu, S. Chen, W. Chen, N. Cheng, Breaking Volmer step limitation on NiO/PtNi heterojunctions via ATO-induced charge injection and interfacial modulation, Applied Catalysis B: Environmental, 331 (2023) 122684. 4. W. Wu, R. Chen, S. Chen, Z. Wang, N. Cheng*, Optimizing d-Orbital Electronic Configuration via Metal-Metal Oxide Core-Shell Charge Donation for Boosting Reversible Oxygen Electrocatalysis, Small, 19 (2023) e2300621. 5. F. Guo, Z. Zhang, R. Chen, Y. Tan, W. Wu, Z. Wang, T. Zeng, W. Zhu, C. Lin, N. Cheng*, Dual roles of sub-nanometer NiO in alkaline hydrogen evolution reaction: breaking the Volmer limitation and optimizing d-orbital electronic configuration, Materials Horizons, 10 (2023) 2913-2920. 6. M. Zheng, J. Zhao, W. Wu, R. Chen, S. Chen, N. Cheng*, Co/CoS2 Heterojunction Embedded in N, S-Doped Hollow Nanocage for Enhanced Polysulfides Conversion in High-Performance Lithium–Sulfur Batteries, Small, n/a (2023) 2303192;DOI:https://doi.org/10.1002/smll.202303192 7. H. Chen, W. Wu, S. Chen, Z. Wang, R. Chen, N. Cheng*, Tailoring the d-band center of porous CoS2 nanospheres via low-electronegative Fe for weakened OH* adsorption and boosted oxygen evolution, Inorg Chem Front, (2023). DOI:https://doi.org/ 10.1039/D3QI00902E 8. Y. Tan, Z. Zhang, Z. Lei, L. Yu, W. Wu, Z. Wang, N. Cheng*, Electronic modulation optimizes OH* intermediate adsorption on Co-Nx-C sites via coupling CoNi alloy in hollow carbon nanopolyhedron toward efficient reversible oxygen electrocatalysis, Applied Catalysis B: Environmental, 304 (2022) 121006. 9. R. Chen, Z. Zhang, Z. Wang, W. Wu, S. Du, W. Zhu, H. Lv, N. Cheng*, Constructing Air-Stable and Reconstruction-Inhibited Transition Metal Sulfide Catalysts via Tailoring Electron-Deficient Distribution for Water Oxidation, ACS Catalysis, 12 (2022) 13234-13246. 10. Y. Wang, W. Wu, R. Chen, C. Lin, S. Mu, N. Cheng*, Reduced water dissociation barrier on constructing Pt-Co/CoOx interface for alkaline hydrogen evolution, Nano Research, 15 (2022) 4958-4964. 11. Y. Lai, Z. Zhang, Z. Zhang, Y. Tan, L. Yu, W. Wu, Z. Wang, T. Jiang, S. Gao, N. Cheng*, Electronic modulation of Pt nanoclusters through tuning the interface of Pt-SnO2 clusters for enhanced hydrogen evolution catalysis, Chem Eng J, 435 (2022) 135102. 12. T. Jiang, L. Yu, Z. Zhao, W. Wu, Z. Wang, N. Cheng*, Regulating the intermediate affinity on Pd nanoparticles through the control of inserted-B atoms for alkaline hydrogen evolution, Chem Eng J, 433 (2022) 133525. 13. Tan, Y.;Zhu, W.;Zhang, Z.;Wu, W.;Chen, R.;Mu, S.;Lv, H.; N. Cheng*. Electronic tuning of confined sub-nanometer cobalt oxide clusters boosting oxygen catalysis and rechargeable Zn–air batteries. Nano Energy 2021, 83, 105813. 14. Lei, Z.;Tan, Y. Y.;Zhang, Z. Y.;Wu, W.; N. Cheng*;Chen, R. Z.;Mu, S. C.; Sun, X. L. Defects enriched hollow porous Co-N-doped carbons embedded with ultrafine CoFe/Co nanoparticles as bifunctional oxygen electrocatalyst for rechargeable flexible solid zinc-air batteries. Nano Res 2021, 14, 868-878. 15. Zhang, Z. Y.;Tan, Y. Y.;Zeng, T.;Yu, L. Y.;Chen, R. Z.; N. Cheng*;Mu, S. C.; Sun, X. L. Tuning the dual-active sites of ZIF-67 derived porous nanomaterials for boosting oxygen catalysis and rechargeable Zn-air batteries. Nano Res 2021, 10.1007/s12274-020-3234-6. 16. Guo, F.;Zou, Z.;Zhang, Z.;Zeng, T.;Tan, Y.;Chen, R.;Wu, W.; N. Cheng* ;Sun, X. Confined sub-nanometer PtCo clusters as a highly efficient and robust electrocatalyst for the hydrogen evolution reaction. Journal of Materials Chemistry A 2021, 9, 5468-5474. 17. L. Wang, W. Wu, Z. Lei, T. Zeng, Y. Tan, N. Cheng* and X. Sun, High-performance alcohol electrooxidation on Pt3Sn–SnO2 nanocatalysts synthesized through the transformation of Pt–Sn nanoparticles,Journal of Materials Chemistry A, 2020, 8, 592-598. 18. W. Wu, Z. Zhang, Z. Lei, X. Wang, Y. Tan, N. Cheng* and X. Sun, Encapsulating Pt Nanoparticles inside a Derived 2D Metal-Organic Frameworks for the Enhancement of Catalytic Activity. Acs Appl Mater Inter, 2020, 12, 10359-10368. 19. W. Chen, Z. Lei, T. Zeng, L. Wang, N. Cheng*, Y. Tan and S. Mu, Structurally ordered PtSn intermetallic nanoparticles supported on ATO for efficient methanol oxidation reaction, Nanoscale, 2019, 11, 19895-19902. 20. Cheng N , S. Stambula, D. Wang, M. Banis, J. Liu, A. Riese, B. Xiao, R. Li, T.-K. Sham, L. Liu, G. Botton and X. Sun, Platinum Single-atom and Cluster Catalysis of the Hydrogen Evolution Reaction. Nat. Commun., 2016, 7, 13638. 21. Cheng N, Shao Y, Liu J, Sun X. "Electrocatalysts by atomic layer deposition for fuel cell applications", Nano Energy, 2016, 29, 220-242. 22. Cheng N, Norouzi Banis M, Liu J, Riese A, Mu S, Li R, et al. Atomic scale enhancement of metal–support interactions between Pt and ZrC for highly stable electrocatalysts. Energy Environ. Sci., 2015. 8(5): 1450-1455. 23. Cheng N, Banis MN, Liu J, Riese A, Li X, Li R, et al. Extremely stable platinum nanoparticles encapsulated in a zirconia nanocage by area-selective atomic layer deposition for the oxygen reduction reaction. Adv Mater 2015, 27(2): 277-281. 热烈欢迎有志于科学研究的同学加入本课题组. |
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